Ilya Granovsky, Haifa IL

Ilya Granovsky, Haifa IL

Patent application number

Description

Published

20090003335

Device, System and Method of Fragmentation of PCI Express Packets - Device, system and method of fragmentation of PCI Express packets. For example, an apparatus includes a credit-based flow control interconnect device to fragment a Transaction Layer Packet into a stream of micro-packets, wherein the stream comprises an initial micro-packet and one or more continuation micro-packets.

Device, System and Method of Modification of PCI Express Packet Digest - Device, system and method of modification of PCI Express packet digest. For example, an apparatus includes a credit-based flow control interconnect device to generate a credit-based flow control interconnect Transaction Layer Packet in which one or more bits of a digest portion carry non-ECRC data.

01-01-2009

20090007034

Device, System, and Method for Correction of Integrated Circuit Design - Device, system and method of correcting an integrated circuit design. For example, a method includes receiving a list of one or more root points for an active netlist that requires logic correction, wherein the root points correlate between elements of the active netlist and elements of a re-synthesized netlist that is based on a high-level correction for the integrated circuit design; automatically identifying in the active netlist a driving logic cone for at least one of the root points; and automatically identifying in the re-synthesized netlist a driving logic cone for the respectively correlated root point, including one or more corrected logic elements that correspond to the one or more identified flawed logic elements.

01-01-2009

20090113082

Device, System, and Method of Speculative Packet Transmission - Device, system and method of speculative packet transmission. For example, an apparatus for speculative packet transmission includes: a credit-based flow control interconnect device to initiate speculative transmission of a Transaction Layer Packet if a number of available flow control credits is insufficient for completing the transmission.

04-30-2009

20090177822

Device, System, and Method of Handling Transactions - Some embodiments include, for example, devices, systems, and methods of handling transactions. In some demonstrative embodiments, an apparatus to handle transactions in a computing system may include a master unit to arbitrate between read and write requests to be issued over a request bus according to at least first and second arbitration schemes. A first ratio between read and write requests issued by the master unit according to the first arbitration scheme may be different from a second ratio between read and write requests issued by the master unit according to the second arbitration scheme.

07-09-2009

20090185487

AUTOMATED ADVANCE LINK ACTIVATION - Embodiments herein provide a transaction level mechanism that ensures that the links are operational right in time for the data flow, so that the data flow will not be impacted by delays associated with link recovery into the operational state. The path has links that have the ability to be in an inactive mode or an active mode. The embodiments herein transmit an “activation transmission” over the path to turn on the links within the path, before sending a data transfer (comprising packetized data) to turn on (wake up) the inactive links within the path, so that the actual data transfer does not experience any such start-up or wake-up delays.

07-23-2009

20090187683

ADAPTIVE LINK WIDTH CONTROL - A communications apparatus uses at least one logical communications link that comprises a plurality of lanes within a computerized hardware device. A data transfer monitor is connected to the logical communications link and measures the real-time data transfer bandwidth of the logical communications link. In addition, a link management unit or link width control unit (comparator) is connected to the lanes and to the data transfer monitor and continually compares the real-time data transfer bandwidth to a predetermined data transfer bandwidth standard. If the real-time data transfer bandwidth is below the predetermined data transfer bandwidth standard, the link management unit is adapted to perform up-configuring of the logical communications link by activating additional lanes up to a maximum number of lanes making up the logical communications link. Conversely, if the real-time data transfer bandwidth is above the predetermined data transfer bandwidth standard, the link management unit is adapted to perform down-configuring the logical communications link by deactivating lanes within the logical communications link. The lanes consume less power when the lanes are deactivated relative to when the lanes are activated, thus the down-configuring reduces power consumption.

07-23-2009

20090217075

Signal Phase Verification for Systems Incorporating Two Synchronous Clock Domains - The present invention implements a mechanism which enables zero-delay verification tools to detect clock domain crossing violation in device under test designs comprising two different clock domains where the fast clock is an integer multiple of the slow clock by inserting undefined (i.e., invalid) values on slow clock domain signals during the clock periods when the signals are not supposed to be captured. The undefined values are contained in the logic cone and emulate timing uncertainly of the path. Propagation of the undefined values through the capturing latch indicates improper clock domains crossing handling.

08-27-2009

20120254587

ACCELERATOR ENGINE COMMANDS SUBMISSION OVER AN INTERCONNECT LINK - An apparatus and method of submitting hardware accelerator engine commands over an interconnect link such as a PCI Express (PCIe) link. In one embodiment, the mechanism is implemented inside a PCIe Host Bridge which is integrated into a host IC or chipset. The mechanism provides an interface compatible with other integrated accelerators thereby eliminating the overhead of maintaining different programming models for local and remote accelerators. Co-processor requests issued by threads requesting a service (client threads) targeting remote accelerator are queued and sent to a PCIe adapter and remote accelerator engine over a PCIe link. The remote accelerator engine performs the requested processing task, delivers results back to host memory and the PCIe Host Bridge performs co-processor request completion sequence (status update, write to flag, interrupt) include in the co-processor command.

10-04-2012

20120284437

PCI EXPRESS SR-IOV/MR-IOV VIRTUAL FUNCTION CLUSTERS - An apparatus, including a first multiple of virtual function clusters positioned on a Peripheral Component Interconnect Express (PCIe) configuration space, each of the clusters comprising at least one virtual function, and a second multiple of physical functions positioned on the PCIe configuration space. The apparatus also includes an extended virtual function shell positioned on the PCIe configuration space and configured to select one of the physical functions, to select one of the available virtual function clusters and to associate the selected virtual function cluster with the selected the physical function.

11-08-2012

20120284446

ACCELERATOR ENGINE EMULATION OVER AN INTERCONNECT LINK - An apparatus and method of emulating a hardware accelerator engine over an interconnect link such as PCI Express (PCIe) link. In one embodiment, the accelerator emulation mechanism is implemented inside a PCIe Host Bridge which is integrated into a host IC or chipset. The accelerator emulation mechanism provides an interface compatible with other integrated accelerators thereby eliminating the overhead of maintaining different programming models for local and remote accelerators. Co-processor requests issued by threads requesting a service (client threads) targeting remote accelerator are queued and sent to a PCIe adapter and remote accelerator engine over a PCIe link. The remote accelerator engine performs the requested processing task, delivers results back to host memory and the PCIe Host Bridge performs co-processor request completion sequence (status update, write to flag, interrupt) include in the co-processor command.

11-08-2012

20120284448

EXECUTING VIRTUAL FUNCTIONS USING MEMORY-BASED DATA IN A PCI EXPRESS SR-IOV AND MR-IOV ENVIRONMENT - A method, including receiving, by an extended virtual function shell positioned on a Peripheral Component Interconnect Express (PCIe) configuration space, a virtual function call comprising a request to perform a specific computation, and identifying a physical function associated with the called virtual function, the physical function one of multiple physical functions positioned on the PCIe configuration space. One or more first data values are then retrieved from a virtual function instance stored in the memory, one or more first data values, the virtual function instance associated with the called virtual function, and one or more second data values are retrieved from the identified physical function. The specific computation is then performed using the first data values and the second data values, thereby calculating a result.

11-08-2012

20130159764

PCI Express Error Handling and Recovery Action Controls - An apparatus and method of PCIe error handling and recovery actions taken in the event of an error. An error reporting extension defines a set of commonly used actions that are taken by a device in response to the detection of an error. This minimizes the side effects of continued device operation following the occurrence of an error. The device's error handling capabilities are advertised and the system software specifies the desired device action to take upon occurrence of a particular error. The particular error handling action is defined uniquely for each PCIe function and error type, such that different errors trigger a different type of action, thereby affecting only specific device functions or the entire device, depending on the configuration. Error handling actions and control fields are placed in the extension portion of the PCI Express Advanced Error Reporting configuration space.

EXECUTING VIRTUAL FUNCTIONS USING MEMORY-BASED DATA IN A PCI EXPRESS SR-IOV AND MR-IOV ENVIRONMENT - A method, including receiving, by an extended virtual function shell positioned on a Peripheral Component Interconnect Express (PCIe) configuration space, a virtual function call comprising a request to perform a specific computation, and identifying a physical function associated with the called virtual function, the physical function one of multiple physical functions positioned on the PCIe configuration space. One or more first data values are then retrieved from a virtual function instance stored in the memory, one or more first data values, the virtual function instance associated with the called virtual function, and one or more second data values are retrieved from the identified physical function. The specific computation is then performed using the first data values and the second data values, thereby calculating a result.